JP2016224410A - Polyvinyl alcohol film, polarizing film, and manufacturing method for polyvinyl alcohol film - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a polyvinyl alcohol film which offers low haze and superior surface smoothness and is suitably used to produce a polarizing film with a superior degree of polarization and light transmittance.SOLUTION: A polyvinyl alcohol film has a thickness of 5-60 μm, width of 2 m or greater, and length of 2 km or greater and exhibits a haze of 0.2% or less.SELECTED DRAWING: None

Description

  The present invention relates to a polyvinyl alcohol film and a polarizing film, and a method for producing a polyvinyl alcohol film. More specifically, the present invention relates to a polyvinyl alcohol film that has a low haze and excellent surface smoothness, and further can obtain a polarizing film excellent in polarization degree and light transmittance. It is.

  Conventionally, a polyvinyl alcohol film is prepared by dissolving a polyvinyl alcohol resin in a solvent such as water to prepare a film-forming stock solution, and then forming the film by a solution casting method (casting method) and using a metal heating roll or the like. And then dried. The polyvinyl alcohol film thus obtained is used in many applications as a film excellent in transparency and dyeability, and one of its useful applications is a polarizing film. Such a polarizing film is used as a basic component of a liquid crystal display, and in recent years, its use has been expanded to a device requiring high quality and high reliability.

Under such circumstances, with the enlargement of the screen of a liquid crystal television or the like, there is a need for a polarizing film having a wide, long, thin and excellent optical characteristic as compared with conventional products, and a polyvinyl alcohol film as a raw material thereof. . When the transparency of the polyvinyl alcohol film is low or the surface smoothness is low, the light transmittance of the polarizing film is lowered and the polarization performance is not constant, which is an obstacle to high brightness and high definition of the display. Become. In addition, when the polyvinyl alcohol film has many defects, as a matter of course, the display defects of the polarizing film also increase, making it difficult to produce a high-quality display.
As a countermeasure against such a problem, for example, a polyvinyl alcohol film using two kinds of polyvinyl alcohol resins having different molecular weights has been proposed (for example, see Patent Document 1). Moreover, the manufacturing method of the polyvinyl-alcohol-type film using a specific additive is proposed (for example, refer patent document 2).

JP 2006-308938 A JP 2012-082313 A

  However, in the disclosed technique of Patent Document 1, since two types of polyvinyl alcohol resins must be manufactured, not only the production load increases, but also the molecular weight differs by 20,000 or more, so any polyvinyl alcohol resin during film formation Such a precipitate increases the haze, surface roughness, and number of defects of the polyvinyl alcohol film, and tends to be an obstacle when producing a high-quality polarizing film.

  Moreover, although the disclosed technique of patent document 2 reduces haze by adding a specific surfactant to a film forming raw material (aqueous solution of polyvinyl alcohol resin), no matter how much the film forming raw material is optimized. If the cast mold surface is rough, a low haze film cannot be obtained.

  Therefore, in the present invention, under such a background, a polyvinyl alcohol film that has a low haze and excellent surface smoothness, and can obtain a polarizing film excellent in polarization degree and light transmittance. It aims at providing a system film and its manufacturing method.

  However, as a result of intensive studies in view of such circumstances, the present inventors have obtained a polarizing film having excellent polarization degree and optical characteristics by using a polyvinyl alcohol-based film having lower haze and superior surface smoothness than before. As a result, the present invention was completed.

  That is, the gist of the present invention relates to a polyvinyl alcohol film having a thickness of 5 to 60 μm, a width of 2 m or more, and a length of 2 km or more, and having a haze of 0.2% or less.

  The present invention also provides a polarizing film comprising the polyvinyl alcohol film.

And this invention is the manufacturing method of the polyvinyl-alcohol-type film obtained by discharging and flowing the aqueous solution of polyvinyl alcohol-type resin to a cast type | mold, and forming it continuously, and exists in the cast type | mold surface The present invention also provides a method for producing a polyvinyl alcohol-based film using a cast mold having a depth of 1 μm or more and 2 or less microcracks in 1 mm ² .

  Since the polyvinyl alcohol film of the present invention is a polyvinyl alcohol film having a low haze and excellent surface smoothness, a polarizing film excellent in the degree of polarization and light transmittance is produced when the polyvinyl alcohol film is used. be able to.

  The present invention is described in detail below.

  The polyvinyl alcohol film of the present invention is a polyvinyl alcohol film having a thickness of 5 to 60 μm, a width of 2 m or more, and a length of 2 km or more, and having a haze of 0.2% or less. It is a film.

The haze of the polyvinyl alcohol film of the present invention is required to be 0.2% or less, preferably 0.1% or less, particularly preferably 0.05% or less. If the haze exceeds the upper limit, the light transmittance of the polarizing film is lowered and the object of the present invention cannot be achieved.
The lower limit of haze is usually 0.001%.

  Examples of the method for reducing the haze include a method for reducing the surface roughness of the polyvinyl alcohol film, a method for reducing light scattering inside the polyvinyl alcohol film by adding a surfactant to the film forming stock solution, and the like. In the present invention, a method of reducing the surface roughness of the polyvinyl alcohol film is preferable because various properties of the polyvinyl alcohol film such as dyeability can be maintained.

The surface roughness Ra of the polyvinyl alcohol film of the present invention is preferably 20 nm or less, particularly preferably 15 nm or less, and further preferably 10 nm or less.
If the surface roughness Ra is too large, the polarization degree of the polarizing film tends to decrease.

  Examples of the method for reducing the surface roughness include a method for reducing the surface roughness of the cast mold and a method for reducing precipitates in the film formation by adding a surfactant to the film forming raw material. In the invention, a method of reducing the surface roughness of the cast mold is preferable because various properties of the polyvinyl alcohol film such as dyeability can be maintained.

The polyvinyl alcohol film of the present invention has two or less linear protrusions having a width of 1 μm or more intersecting the virtual line when a virtual line having a length of 1 mm is provided at an arbitrary position on the film surface. It is particularly preferred that the number is 1 or less, more preferably 0.
If the number of such linear protrusions is too large, the color unevenness of the polarizing film tends to increase. In the present invention, it is linear with an aspect ratio of 10 or more.

  Examples of the method for reducing the number include a method for reducing microcracks on the surface of the cast mold, a method for improving the surface smoothness of the transport roll, and a method for increasing the cleanliness of the manufacturing process. In view of the effect of reducing the linear protrusions, a technique for reducing microcracks on the cast mold surface is preferable.

Furthermore, in the polyvinyl alcohol film of the present invention, the number of linear protrusions having a height of 1 μm or more contained in any 1 mm ² of the film surface is preferably 1 or less, particularly preferably 0.5 μm or more in height. The number of linear protrusions is 1 or less, more preferably, the number of linear protrusions having a height of 0.1 μm or more is 1 or less.
If the number of linear protrusions is too large or the height of the linear protrusions is too high, the color unevenness of the polarizing film tends to increase.

  Examples of the method for reducing the number of protrusions on the line include a method for reducing microcracks on the surface of the cast mold, a method for improving the surface smoothness of the transport roll, and a method for increasing the cleanliness of the manufacturing process. In view of the effect of reducing the linear protrusions, a technique for reducing microcracks on the cast mold surface described later is preferable.

  Hereinafter, the polyvinyl alcohol film of the present invention and the polarizing film using the same will be described.

  As the polyvinyl alcohol resin used in the present invention, an unmodified polyvinyl alcohol resin, that is, a resin produced by saponifying polyvinyl acetate obtained by polymerizing vinyl acetate is usually used. If necessary, a resin obtained by saponifying a copolymer of vinyl acetate and a small amount (for example, 10 mol% or less, preferably 5 mol% or less) of vinyl acetate and a copolymerizable component may be used. it can. Examples of components copolymerizable with vinyl acetate include unsaturated carboxylic acids (including salts, esters, amides, nitriles, etc.), and olefins having 2 to 30 carbon atoms (for example, ethylene, propylene, n-butene). , Isobutene, etc.), vinyl ethers, unsaturated sulfonates and the like. Moreover, the modified polyvinyl alcohol-type resin obtained by chemically modifying the hydroxyl group after saponification can also be used.

  Moreover, as a polyvinyl alcohol-type resin, the polyvinyl alcohol-type resin which has a 1, 2- diol structure in a side chain can also be used. Such a polyvinyl alcohol resin having a 1,2-diol structure in the side chain includes, for example, (i) a method of saponifying a copolymer of vinyl acetate and 3,4-diacetoxy-1-butene, and (ii) acetic acid. A method for saponifying and decarboxylating a copolymer of vinyl and vinyl ethylene carbonate, (iii) saponifying and decarboxylating a copolymer of vinyl acetate and 2,2-dialkyl-4-vinyl-1,3-dioxolane It is obtained by a method of ketalization, (iv) a method of saponifying a copolymer of vinyl acetate and glycerol monoallyl ether, or the like.

  The weight average molecular weight of the polyvinyl alcohol-based resin is preferably 100,000 to 300,000, particularly preferably 110,000 to 280,000, and more preferably 120,000 to 260,000. If the weight average molecular weight is too small, sufficient optical performance tends to be difficult to obtain when the polyvinyl alcohol-based resin is used as an optical film, and if it is too large, it tends to be difficult to stretch the polyvinyl alcohol-based film when manufacturing a polarizing film. There is. In addition, the weight average molecular weight of the said polyvinyl alcohol-type resin is a weight average molecular weight measured by GPC-MALS method.

The average saponification degree of the polyvinyl alcohol resin used in the present invention is usually preferably 98 mol% or more, particularly preferably 99 mol% or more, further preferably 99.5 mol% or more, and particularly preferably 99.mol%. It is 8 mol% or more. If the average degree of saponification is too small, there is a tendency that sufficient optical performance cannot be obtained when a polyvinyl alcohol film is used as a polarizing film.
Here, the average saponification degree in the present invention is measured according to JIS K 6726.

  As a polyvinyl alcohol-type resin used for this invention, you may use together 2 or more types from which modified | denatured seed | species, a weight average molecular weight, an average saponification degree, etc. differ.

The polyvinyl alcohol-based film of the present invention is prepared by preparing a polyvinyl alcohol-based resin aqueous solution using the above-mentioned polyvinyl alcohol-based resin, discharging and casting the aqueous solution into a cast mold, and forming and drying the film by a casting method. For example, it can be manufactured by the following steps.
(A) A step of forming a film by a casting method.
(B) The process of heating and drying the formed film.
(C) A step of winding the dried film on a roll after slitting.

Here, examples of the cast mold include a cast drum (drum mold roll), an endless belt, and the like. However, the cast mold is preferably performed from the viewpoint of widening, lengthening, and film thickness uniformity.
Hereinafter, a case where the cast mold is a cast drum will be described as an example.

  First, the step (A) will be described.

In the step (A), the polyvinyl alcohol resin described above is first washed with a solvent such as water, dehydrated with a centrifuge, etc., and wet with a polyvinyl alcohol resin having a water content of 50% by weight or less. A cake is preferred. When the water content is too large, it tends to be difficult to obtain a desired aqueous solution concentration.
Such a polyvinyl alcohol resin wet cake is dissolved in warm water or hot water to prepare an aqueous polyvinyl alcohol resin solution.

  The method for preparing the polyvinyl alcohol resin aqueous solution is not particularly limited. For example, the polyvinyl alcohol resin aqueous solution may be prepared using a heated multi-screw extruder, and the dissolution can equipped with the vertical circulation flow generation type stirring blade is described above. A polyvinyl alcohol-based resin wet cake can be introduced, and steam can be blown into the can to prepare an aqueous solution having a desired concentration.

  In addition to polyvinyl alcohol-based resins, polyvinyl alcohol-based resin aqueous solutions include plastics commonly used such as glycerin, diglycerin, triglycerin, ethylene glycol, triethylene glycol, polyethylene glycol, and trimethylol propane as necessary. It is preferable from the viewpoint of film forming property to contain an agent and a nonionic, anionic, and / or cationic surfactant.

  The resin concentration of the polyvinyl alcohol-based resin aqueous solution thus obtained is preferably 15 to 60% by weight, particularly preferably 17 to 55% by weight, and further preferably 20 to 50% by weight. If the resin concentration is too low, the drying load increases, so the production capacity tends to decrease. If the resin concentration is too high, the viscosity becomes too high and uniform dissolution tends to be difficult.

  Next, the obtained polyvinyl alcohol-based resin aqueous solution is defoamed. Examples of the defoaming method include stationary defoaming and defoaming with a multi-screw extruder. The multi-screw extruder is not particularly limited as long as it is a multi-screw extruder having a vent. Usually, a twin-screw extruder having a vent is used.

  After the defoaming treatment, the polyvinyl alcohol-based resin aqueous solution is introduced into a T-shaped slit die by a certain amount, discharged and cast on a rotating cast drum, and formed into a film by a casting method.

The temperature of the polyvinyl alcohol-based resin aqueous solution at the exit of the T-shaped slit die is preferably 80 to 100 ° C, particularly preferably 85 to 98 ° C.
If the temperature of the aqueous polyvinyl alcohol resin solution is too low, it tends to cause poor flow, and if it is too high, it tends to foam.

The viscosity of the aqueous polyvinyl alcohol resin solution is preferably 50 to 200 Pa · s, particularly preferably 70 to 150 Pa · s at the time of discharge.
If the viscosity of such an aqueous solution is too low, it tends to be poor in flow, and if it is too high, it tends to be difficult to flow.

The discharge speed of the polyvinyl alcohol-based resin aqueous solution discharged from the T-type slit die onto the cast drum is preferably 0.5 to 5 m / min, particularly preferably 0.6 to 4 m / min, and more preferably 0.8. 7-3 m / min.
If the discharge speed is too slow, the productivity tends to decrease, and if it is too fast, the fluency tends to be difficult.

The diameter of the cast drum is preferably 2 to 5 m, particularly preferably 2.4 to 4.5 m, and further preferably 2.8 to 4 m.
If the diameter is too small, the drying length is insufficient and the speed tends not to be obtained, and if it is too large, the transportability tends to decrease.

The width of the cast drum is preferably 2 m or more, particularly preferably 3 m or more, more preferably 4 m or more, and particularly preferably 5 to 6 m.
If the width of the cast drum is too small, the productivity tends to decrease.

The rotation speed of the cast drum is preferably 3 to 50 m / min, particularly preferably 4 to 40 m / min, and further preferably 5 to 35 m / min.
If the rotational speed is too slow, the productivity tends to decrease, and if it is too fast, drying tends to be insufficient.

The surface temperature of such a cast drum is preferably 40 to 99 ° C, particularly preferably 60 to 95 ° C.
If the surface temperature is too low, drying tends to be poor, and if it is too high, foaming tends to occur.

  As such a cast drum, a stainless steel (SUS) surface containing iron as a main component is usually used in which metal plating is applied to prevent scratches. Examples of the metal plating include chrome plating, nickel plating, and zinc plating, and these are used alone or in a laminate of two or more layers. Among these, it is preferable that the outermost surface is a chromium plating layer in terms of easy smoothing of the drum surface and excellent durability.

  The surface roughness Ra of the cast drum used in the present invention is preferably 20 nm or less. More preferably, it is 15 nm or less, More preferably, it is 10 nm or less. If the surface roughness Ra is too large, the surface roughness of the polyvinyl alcohol film tends to increase.

  Examples of a method for reducing the surface roughness include a method of sealing microcracks on the surface of the cast drum, a method of polishing the surface of the cast drum, and the like. In the present invention, microcracks on the surface of the cast drum are sealed. It is preferable to polish the periphery of the sealing part before and / or after sealing.

In the cast drum used in the present invention, the number of microcracks having a depth of 1 μm or more existing on the surface of the cast drum is preferably 2 or less in 1 mm ² , particularly preferably 1 or less, and further preferably such microcracks. It is a cast drum that does not contain cracks.
Further, the number of microcracks having a depth of 0.1 μm or more existing on the cast drum surface is preferably 10 or less, particularly preferably 7 or less, and more preferably 5 or less in 1 mm ² .
If the number of microcracks is too large, the surface roughness of the polyvinyl alcohol film tends to increase.

  Examples of techniques for reducing the number of microcracks include a technique for sealing microcracks on the cast drum surface, a technique for polishing the cast drum surface, and a technique for melting and smoothing the cast drum surface by etching. In the present invention, a method of sealing microcracks on the surface of the cast drum is preferable, and it is particularly preferable to polish the periphery of the sealing portion before and / or after sealing. In the method of performing only polishing or only etching, the microcracks are difficult to see visually, but when the cast drum is heated and continuously operated, the size of the microcracks tends to increase and the number of the microcracks tends to increase.

Hereinafter, a method for sealing microcracks will be described in detail.
In general, there are microcracks in the plating layer, and there are more or less microcracks on the surface of the cast mold preferably used in the present invention. Such micro cracks are caused by the stress of the metal plating layer, and the shape and number thereof vary depending on the thickness of the metal plating layer, plating conditions, heat treatment, chemical treatment, layer configuration, etc. It tends to occur when the plating conditions and heat treatment conditions are not uniform.

  Examples of the microcrack sealing method include a method of sealing with an organic and / or inorganic sealing material, a method of sealing by laser annealing, and a thermal spraying method such as arc spraying or flame spraying. From the viewpoint of property, it is preferable to close with an inorganic sealing material.

Examples of the inorganic sealing material include an alkoxysilane compound, an alkoxytitanium compound, an alkoxychromium compound, and an inorganic polymer obtained by condensing these composite compounds by hydrolysis. Among these, a cast-type material and From the viewpoint of adhesion, an inorganic polymer condensed with an alkoxysilane compound is preferable, and an inorganic polymer condensed with an alkoxysilane compound represented by the following general formula (1) is particularly preferable from the viewpoint of easy sealing treatment at the production site. .
R ¹ _n Si (OR ² ) _4-n (1)
(Here, R ¹ represents a hydrocarbon group having 1 to 10 carbon atoms, R ² represents a hydrocarbon group having 1 to 3 carbon atoms, and n represents an integer of 1 to 3).

  Specific examples of such alkoxysilane compounds include methyltrimethoxysilane, phenyltrimethoxysilane, methyltriethoxysilane, methyltriisopropoxysilane, ethyltrimethoxysilane, butyltrimethoxysilane, dimethyldimethoxysilane, and dimethyldiethoxysilane. , Diphenyldimethoxysilane, diphenyldiethoxysilane, phenylmethyldimethoxysilane, tetramethoxysilane, tetraethoxysilane, tetraisopropoxysilane and the like. Of these, methyltrimethoxysilane, diphenyldimethoxysilane, and mixtures thereof are preferred.

  The method for condensing the alkoxysilane compound is not particularly limited, and water is added to the single or mixture of the above alkylalkoxysilane compounds, and the mixture is heated while stirring in the presence of a catalyst such as hydrochloric acid, acetic acid, formic acid or the like. , Partial hydrolysis may be caused to condense.

  As a sealing method using such an inorganic sealing material, a microcrack portion generated in a cast mold is polished with a grindstone as necessary, and an inorganic sealing material is applied by a known method. The inorganic sealing material can be cured at room temperature, but the curing can be completed more quickly if heat treatment or baking treatment is performed as necessary. If necessary, coating may be performed under reduced pressure or under pressure, and the periphery of the sealing portion may be polished after heat treatment or baking treatment.

Hereinafter, the sealing process will be described in detail with reference to an example in which a cast drum is used, but the present invention is not limited to such a processing method.
The specific sealing process is preferably performed in the following steps [I] to [IV].
[I] A step of solvent-cleaning the cast drum surface.
[II] A step of applying an inorganic sealing material.
[III] A step of firing the inorganic sealing material.
[IV] A step of wiping the residue on the surface of the cast drum with a solvent.

Examples of the solvent used in the step [I] include acetone, ethanol, water, and the like. Cleaning is preferably performed a plurality of times from the viewpoint of cleaning efficiency, and more preferably using a plurality of solvents. If such solvent cleaning is not performed, the inorganic sealing material tends to not sufficiently penetrate into the microcracks due to the resin and oil in the microcracks. The cleaning may be performed by pouring the solvent while rotating the cast drum, or the rotation may be stopped and the dirty part may be shower-washed intensively. Usually, the washing temperature is 0 to 50 ° C., and the washing time is 1 minute to 1 hour. Drying of the solvent is preferably natural drying, but may be performed with hot air using a dryer or the like.
When there are many micro cracks locally, the local area may be polished before cleaning. For the polishing, a commercially available grindstone or a cloth can be used.

As the coating method of step [II], known methods such as brush coating, roller brush coating, spatula coating, tampo coating, spray coating, curtain flow coating, flow coating, and dip coating are possible. Among these, Brushing is preferable from the viewpoint of workability. The application amount is, for example, 1 to 100 g / m ² in the case of an alkoxysilane compound. If it is less than the lower limit, it is not sufficient to block the sealed portion, and if it exceeds the upper limit, a buildup occurs after sealing, which is not preferable.

  Step [III] is preferably performed at 50 to 200 ° C, more preferably 1 to 60 minutes. If the temperature or time is less than the lower limit value, the condensation (curing) of the inorganic sealing material tends to be insufficient. Conversely, if the upper limit value is exceeded, the condensation (curing) of the inorganic sealing material runs out of control and becomes inorganic. Adhesiveness between the system sealing material and the inner wall of the microcrack is lowered.

Step [IV] is a step of wiping off the inorganic sealing material residue on the surface of the cast drum with a solvent, and examples of the solvent include acetone, ethanol, water, and the like. For wiping, a material such as cotton that does not damage the surface of the cast drum is preferable.
In addition, after the start of manufacture, when the surface roughness of the target film cannot be obtained, the built-up portion of the inorganic sealing material or the periphery of the sealing portion may be polished. For the polishing, a commercially available grindstone or a cloth can be used.

  Thus, the cast drum is repaired, but if the repair effect is not perfect, it is possible to repeat the steps [I] to [IV] described above, or a part of the steps [I] to [IV] is repeatedly performed. You may do it.

  Further, as a preferred embodiment of the present invention, it is preferable to use a cast drum that periodically seals the surface of the cast drum and polishes it as necessary in a cycle of several months to several years. The period is preferably about 3 months to 2 years.

  Next, the step (B) will be described. A process (B) is a process of heating and drying the formed film.

The film formed on the cast drum is dried by alternately contacting the front and back surfaces of the film with a plurality of hot rolls. The surface temperature of a hot roll is 40-150 degreeC normally, Preferably it is 50-140 degreeC. If the surface temperature is too low, drying tends to be poor. If the surface temperature is too high, drying tends to be excessive, and appearance defects such as undulation tend to be caused.
The hot roll is, for example, a roll having a diameter of 0.2 to 2 m whose surface is hard chrome plated or mirror-finished, and drying is usually performed using 2 to 30, preferably 10 to 25 rolls. preferable.

  In the present invention, it is preferable to heat-treat the film after drying with a hot roll. The heat treatment temperature is preferably 60 to 150 ° C, and particularly preferably 70 to 140 ° C. If the heat treatment temperature is too low, the water resistance of the polyvinyl alcohol-based film tends to decrease or causes a retardation shift. If it is too high, the stretchability during the production of the polarizing film tends to decrease. Examples of such a heat treatment method include a method of contacting with a high-temperature hot roll, a method of using a floating dryer, and the like.

  The film subjected to drying and heat treatment as necessary becomes a product (polyvinyl alcohol film of the present invention) through the step (C). Step (C) is a step in which both ends of the film are slit and wound on a roll.

  Here, a method for preparing a polyvinyl alcohol-based film by preparing a polyvinyl alcohol-based resin aqueous solution so far, casting the aqueous solution on a rotating cast drum (drum-type roll), forming a film by a casting method, and drying the film. However, it is also possible to cast a polyvinyl alcohol-based resin aqueous solution on a resin film or a metal belt, to form a film, and to dry.

  Thus, the polyvinyl alcohol film of the present invention is obtained.

  The polyvinyl alcohol-based film of the present invention obtained by the above production method needs to have a thickness of 5 to 60 μm, and preferably has a thickness of 5 to 50 μm, particularly preferably from the viewpoint of thinning. From the point of retardation reduction, it is 5-40 micrometers, More preferably, it is 5-30 micrometers from the point of fracture avoidance.

  The polyvinyl alcohol film of the present invention needs to have a width of 2 m or more, particularly preferably 3 m or more from the viewpoint of increasing the area, and more preferably 4 to 6 m from the viewpoint of avoiding breakage.

  The polyvinyl alcohol film of the present invention needs to have a length of 2 km or more, particularly preferably 3 km or more from the viewpoint of increasing the area, and more preferably 3 to 50 km from the viewpoint of transport weight.

  The polyvinyl alcohol film of the present invention is excellent in transparency, is suitably used as an optical polyvinyl alcohol film, and is particularly preferably used as a raw material for a polarizing film.

  Hereinafter, the manufacturing method of the polarizing film obtained using the polyvinyl alcohol-type film of this invention is demonstrated.

  The polarizing film of the present invention is produced through steps such as swelling, dyeing, boric acid crosslinking, stretching, washing and drying by unwinding the polyvinyl alcohol film from the roll and transferring it in the horizontal direction.

  The swelling process is performed before the dyeing process. In addition to washing the surface of the polyvinyl alcohol film by the swelling step, there is also an effect of preventing uneven staining by swelling the polyvinyl alcohol film. In the swelling step, water is usually used as the treatment liquid. If the main component is water, the treatment solution may contain a small amount of an iodide compound, an additive such as a surfactant, alcohol, or the like. The temperature of the swelling bath is usually about 10 to 45 ° C., and the immersion time in the swelling bath is usually about 0.1 to 10 minutes.

  The dyeing step is performed by bringing the film into contact with a liquid containing iodine or a dichroic dye. Usually, an iodine-potassium iodide aqueous solution is used. The iodine concentration is suitably 0.1-2 g / L, and the potassium iodide concentration is suitably 1-100 g / L. The dyeing time is practically about 30 to 500 seconds. The temperature of the treatment bath is preferably 5 to 50 ° C. The aqueous solution may contain a small amount of an organic solvent compatible with water in addition to the aqueous solvent.

  The boric acid crosslinking step is performed using a boron compound such as boric acid or borax. The boron compound is used in the form of an aqueous solution or a water-organic solvent mixture at a concentration of about 10 to 100 g / L, and it is preferable that potassium iodide coexists in the solution from the viewpoint of stabilizing the polarization performance. The temperature during the treatment is preferably about 30 to 70 ° C., and the treatment time is preferably about 0.1 to 20 minutes. If necessary, the stretching operation may be performed during the treatment.

  In the stretching step, stretching in a uniaxial direction is preferably performed 3 to 10 times, preferably 3.5 to 6 times. At this time, a slight stretching (stretching to prevent shrinkage in the width direction or more) may be performed in a direction perpendicular to the stretching direction. The temperature during stretching is preferably 40 to 170 ° C. Furthermore, the draw ratio may be finally set within the above range, and the drawing operation may be performed not only in one stage but also in any stage of the manufacturing process.

  The washing step is performed, for example, by immersing the polyvinyl alcohol film in an aqueous iodide solution such as water or potassium iodide, and can remove precipitates generated on the surface of the film. When using a potassium iodide aqueous solution, the potassium iodide concentration may be about 1 to 80 g / L. The temperature during the washing treatment is usually 5 to 50 ° C, preferably 10 to 45 ° C. The treatment time is usually 1 to 300 seconds, preferably 10 to 240 seconds. In addition, you may perform combining water washing | cleaning and washing | cleaning by potassium iodide aqueous solution suitably.

  What is necessary is just to perform a drying process for 1 to 10 minutes at 40-80 degreeC in air | atmosphere.

Further, the polarization degree of the polarizing film is preferably 99.5% or more, more preferably 99.8% or more. If the degree of polarization is too low, there is a tendency that the contrast in the liquid crystal display cannot be secured.
Note that the degree of polarization is generally the light transmittance (H ₁₁ ) measured at the wavelength λ in the state where two polarizing films are overlapped so that their orientation directions are the same direction, and the two polarizing films. It is calculated according to the following equation from the light transmittance (H ₁ ) measured at the wavelength λ in a state where the films are superposed so that the orientation directions are orthogonal to each other.
[(H ₁₁ −H ₁ ) / (H ₁₁ + H ₁ )] ^1/2

Further, the single transmittance of the polarizing film of the present invention is preferably 42% or more. If the single transmittance is too low, it tends to be impossible to achieve high brightness of the liquid crystal display.
The single transmittance is a value obtained by measuring the light transmittance of a single polarizing film using a spectrophotometer.

Thus, although the polarizing film of the present invention is obtained, the polarizing film of the present invention is suitable for producing a polarizing plate with little color unevenness.
Hereinafter, the manufacturing method of the polarizing plate of this invention is demonstrated.

  The polarizing film of the present invention is bonded to one surface or both surfaces of the polarizing film as a protective film by using an optically isotropic resin film via an adhesive. Examples of protective films include films of cellulose triacetate, cellulose diacetate, polycarbonate, polymethyl methacrylate, cycloolefin polymer, cycloolefin copolymer, polystyrene, polyethersulfone, polyarylene ester, poly-4-methylpentene, polyphenylene oxide, and the like. Or a sheet.

  The bonding method is performed by a known method. For example, after a liquid adhesive composition is uniformly applied to a polarizing film, a protective film, or both, the two are bonded and pressure-bonded, and heated or activated. This is done by irradiating energy rays.

  In addition, for the purpose of thinning the polarizing film, instead of the protective film, a curable resin such as urethane resin, acrylic resin, urea resin or the like is applied to one side or both sides of the protective film and cured to obtain a polarizing plate. You can also

  The polarizing film and polarizing plate obtained by the present invention are free from display defects and color unevenness, and have excellent polarization performance, such as portable information terminals, personal computers, televisions, projectors, signage, electronic desk calculators, electronic watches, word processors, electronic Paper, game consoles, videos, cameras, photo albums, thermometers, audio, liquid crystal display devices such as instruments for cars and machinery, sunglasses, anti-glare glasses, stereoscopic glasses, wearable displays, display elements (CRT, LCD, organic EL, electronic paper, etc.) for reflection reduction layers, optical communication equipment, medical equipment, building materials, toys and the like.

EXAMPLES Hereinafter, although an Example is given and this invention is demonstrated further more concretely, this invention is not limited to a following example, unless the summary is exceeded.
In the examples, “parts” and “%” mean weight basis.
Each physical property was measured as follows.

<Measurement conditions>
(1) Haze (%)
Ten test pieces of 50 mm × 50 mm were collected from the roll film, measured using a haze meter “NDH-2000” manufactured by Nippon Denshoku Industries Co., Ltd., and the average value of the ten sheets was defined as haze.

(2) Cast drum surface roughness Ra (nm)
Using a laser focus microscope VK-9700 manufactured by Keyence Corporation (measurement length 0.1 mm, objective lens 50 times), three portions of the cast drum were measured, and the average value was defined as the surface roughness.

(3) Film surface roughness Ra (nm)
Using a laser focus microscope VK-9700 manufactured by Keyence Corporation (measurement length: 0.1 mm, objective lens: 50 times), ten locations of the roll film were measured, and the average value was defined as the surface roughness.

(4) Number of microcracks (pieces / mm ² )
Using a Keyence Corporation laser focus microscope VK-9700 (objective lens: 50 times), the microcracks having a depth of 1 μm or more existing at three locations on the cast drum (each area 1 mm ² ) were observed, and the average value was measured. The number was set.

(5) Number of linear protrusions of the film Using a Keyence Corporation laser focus microscope VK-X110 (objective lens: 50 times), linear protrusions having a width of 1 μm or more present at 10 locations (measurement length 1 mm) of the roll film The number was measured, and the average value was defined as the number A of linear protrusions (lines / mm). Further, the number of linear protrusions having a height of 1 μm or more existing at 10 locations (measurement range: 1 mm × 1 mm) of the roll film was measured, and the average value was defined as the number of linear protrusions B (lines / mm ² ).

(6) Degree of polarization (%), single transmittance (%)
A sample having a length of 4 cm and a width of 4 cm was cut out from the obtained polarizing film, and the degree of polarization and the single transmittance were measured using an automatic polarizing film measuring device (manufactured by JASCO Corporation: VAP7070).

(7) Color unevenness A polarizing film having a length of 30 cm and a width of 30 cm is sandwiched between two polarizing plates in a crossed Nicols state (single transmittance: 43.5%, polarization degree: 99.9%) at an angle of 45 °. Later, using a light box with a surface illuminance of 14,000 lx, optical color unevenness is observed in the transmission mode and evaluated according to the following criteria.
(Evaluation criteria)
○: No color unevenness ×: Color unevenness

(8) Number of display defects (pieces / m ² )
A polarizing film having a length of 30 cm and a width of 30 cm was visually inspected in an environment of 15,000 lx, and the number of defects of 100 μm or more was measured.

<Example 1>
(Repair of cast drum)
After polishing the spot where the surface roughness of the cast drum (diameter 3 m, width 6 m) with chrome plating is conspicuous with a PVA grindstone (surface roughness Rz 0.1 μm), while rotating the cast drum at a low speed of 1 m / min, At room temperature (25 ° C.), acetone, ethanol, and distilled water were washed in this order for 10 minutes each. After drying at room temperature (25 ° C.) for 10 minutes, a hydrolytic condensate of methyltrimethoxysilane (80% by weight) and diphenyldimethoxysilane (20% by weight) was used as a sealing material, and this was applied by brush coating to 30 g / It was applied at m ² and the sealing material was baked at 100 ° C. for 1 hour. Finally, it was cooled and the sealing material residue on the surface of the cast drum was wiped off with a cotton cloth soaked with acetone to complete the repair. Table 1 shows the characteristics of the cast drum obtained.

(Manufacture of polyvinyl alcohol film)
In a 5000 l dissolution can, 1,000 kg of polyvinyl alcohol resin having a weight average molecular weight of 142,000 and a saponification degree of 99.8 mol%, 2,500 kg of water, 105 kg of glycerin as a plasticizer, and sodium dodecyl sulfate as a surfactant 0 .25 kg was added, heated to 150 ° C. with stirring, and dissolved under pressure to obtain a polyvinyl alcohol resin aqueous solution having a resin concentration of 25%.
Next, the polyvinyl alcohol-based resin aqueous solution is supplied to a twin-screw extruder and defoamed, and then the aqueous solution temperature is set to 95 ° C., and then flows from the T-type slit die discharge port to the cast drum at a discharge speed of 1.25 m / min. Then, a film was formed.

  Next, the obtained film was dried using a hot roll, and then heat-treated using a floating dryer. Finally, both ends of the film were cut off with a slit and wound to obtain a roll-shaped polyvinyl alcohol film (thickness 30 μm, width 5 m, length 4 km). The properties of the obtained polyvinyl alcohol film are shown in Table 1.

(Manufacture of polarizing film)
The obtained polyvinyl alcohol film was uniaxially stretched 1.7 times while being immersed in a water bath at a water temperature of 25 ° C. Next, the film was uniaxially stretched 1.6 times while immersed in an aqueous solution at 28 ° C. composed of iodine 0.5 g / L and potassium iodide 30 g / L. Next, the film was uniaxially stretched 2.1 times while being immersed in an aqueous solution of boric acid 40 g / L and potassium iodide 30 g / L at 55 ° C. Finally, it was washed with an aqueous potassium iodide solution and dried to obtain a polarizing film having a total draw ratio of 5.8 times. Table 2 shows the characteristics of the obtained polarizing film.

<Example 2>
A polyvinyl alcohol film and a polarizing film were produced in the same manner as in Example 1 except that sealing was performed without polishing in the repair of the cast drum. Table 1 shows the characteristics of the obtained polyvinyl alcohol film, and Table 2 shows the characteristics of the polarizing film.

<Example 3>
A polyvinyl alcohol film and a polarizing film were prepared in the same manner as in Example 1 except that the discharge speed of the polyvinyl alcohol resin aqueous solution was changed to 2.5 m / min in Example 1 and the thickness of the polyvinyl alcohol film was changed to 60 μm. Manufactured. Table 1 shows the characteristics of the obtained polyvinyl alcohol film, and Table 2 shows the characteristics of the polarizing film.

<Comparative Example 1>
A polyvinyl alcohol film and a polarizing film were produced in the same manner as in Example 1 except that the cast drum was not repaired. Table 1 shows the characteristics of the obtained polyvinyl alcohol film, and Table 2 shows the characteristics of the polarizing film.

The polyvinyl alcohol films of Examples 1 to 3 have good haze of 0.2% or less, whereas the polyvinyl alcohol film of Comparative Example 1 has high haze.
And it turns out that the polarization characteristics of the polarizing film obtained from each polyvinyl alcohol-type film are better in Examples 1-3 than Comparative Example 1.

  The polarizing film and polarizing plate obtained by the present invention are free from display defects and color unevenness, and have excellent polarization performance, such as portable information terminals, personal computers, televisions, projectors, signage, electronic desk calculators, electronic watches, word processors, electronic Paper, game consoles, videos, cameras, photo albums, thermometers, audio, liquid crystal display devices such as instruments for cars and machinery, sunglasses, anti-glare glasses, stereoscopic glasses, wearable displays, display elements (CRT, LCD, organic EL, electronic paper, etc.) for reflection reduction layers, optical communication equipment, medical equipment, building materials, toys and the like.

Claims (15)

  A polyvinyl alcohol film having a thickness of 5 to 60 μm, a width of 2 m or more, and a length of 2 km or more, wherein the haze is 0.2% or less.   The polyvinyl alcohol film according to claim 1, wherein the surface roughness Ra of the polyvinyl alcohol film is 20 nm or less.   When a virtual line having a length of 1 mm is provided at an arbitrary position on the surface of the polyvinyl alcohol film, the number of linear protrusions having a width of 1 µm or more intersecting with the virtual line is 2 or less. The polyvinyl alcohol film according to 1 or 2. The polyvinyl alcohol film according to any one of claims 1 to 3, wherein the number of linear protrusions having a height of 1 µm or more contained in any 1 mm ^{2 on the} surface of the polyvinyl alcohol film is 1 or less.   The polyvinyl alcohol film according to any one of claims 1 to 4, wherein the thickness is 5 to 30 µm.   The polyvinyl alcohol film according to any one of claims 1 to 5, which is obtained by discharging and casting an aqueous solution of a polyvinyl alcohol resin into a cast mold to form a film, and continuously drying the film.   7. The polyvinyl alcohol film according to claim 6, wherein the cast mold is a cast drum, and the outermost surface of the cast drum is a chromium layer formed by plating.   The polyvinyl alcohol film according to claim 6 or 7, wherein the cast drum is a cast drum having a surface roughness Ra of 20 nm or less. The polyvinyl alcohol film according to claim 7 or 8, wherein the number of microcracks having a depth of 1 µm or more present on the surface of the cast drum is 2 or less per 1 mm ² .   The polyvinyl alcohol film according to any one of claims 7 to 9, wherein the cast drum is a cast drum obtained by sealing microcracks on the surface with an inorganic sealing material.   The polyvinyl alcohol film according to claim 10, wherein the inorganic sealing material is an inorganic polymer condensed with an alkoxysilane compound.   The polyvinyl alcohol film according to any one of claims 7 to 11, wherein the cast drum is a cast drum obtained by polishing the periphery of the sealing portion before and / or after the sealing treatment.   13. The polyvinyl alcohol film according to claim 12, wherein the cast drum is a cast drum whose surface is periodically sealed and polished as necessary in a cycle of several months to several years.   A polarizing film comprising the polyvinyl alcohol-based film according to claim 1. This is a method for producing a polyvinyl alcohol film obtained by discharging and flowing an aqueous solution of a polyvinyl alcohol resin into a cast mold, and continuously drying it. A method for producing a polyvinyl alcohol film, wherein a cast mold having ² or less cracks in 1 mm ² is used.